- Have someone pick a number between 1 and 9.
- Now have him use a calculator to first multiply it by 9, and then multiply it by 12,345,679 (notice there is no 8 in that number!).
- Have the person show you the result so you can tell him the original number he selected! How? Easy. If he selected 5, the final answer is 555,555,555. If he selected 3, the final answer is 333,333,333. The reason: 9 x 12345679 = 111111111. You multiplied your digit by 111111111. (By the way, that 8-digit number (12,345,679) is easily memorized: only the 8 is missing from the sequence.)
- Pick a whole number and enter it into your calculator.
- If it is even, divide by 2. If it is odd, multiply by 3 and add 1.
- Repeat the process with the new number over and over. What happens?
- The sequence always ends in the "loop": 4.....2.....1.....4.....2.....1...
- 13 is odd, so we multiply by 3 and add 1. We get 40. (13 x 3 = 39 + 1= 40)
- 40 is even, so we divide by 2. We get 20. (40 / 2 = 20)
- 20 is even, so we divide by 2 and get 10.
- 10 is also even so we divide by 2 again and get 5.
- 5 is odd so we multiply by 3 and add 1. We get 16.
- 16 is even, so we divide by 2 and get 8.
- 8 is also even so we divide by 2 again and get 4.
- 4 is even so we divide by 2. We get 2.
- 2 is even, so we divide by 1 and get 1.
- 1 is odd, so we multiply by 3 and add 1. We get 4.
- 4 is even so we divide by 2. We get 2. And so we begin the loop 4.....2.....1.....4.....2.....1...
- Have someone secretly select a three-digit number and enter it twice into her calculator. (For example: 123123) Have her concentrate on the display. You will try to discern her thoughts!
- From across the room (or over the phone), announce that the number is divisible by 11. Have her verify it by dividing by 11.
- Announce that the result is also divisible by 13. Have her verify it.
- Have him divide by his original three-digit number.
- Announce that the final answer is 7.
Why does this work? Entering a three-digit number twice (123123) is equivalent to multiplying it by 1001. (123 x 1001 = 123,123). Since 1001 = 7 x 11 x 13, the six-digit number will be divisible by 7, 11, 13, and the original three-digit number.
The Secret of 73
- For this trick, secretly write 73 on a piece of paper, fold it up, and give to an unsuspecting friend.
- Now have your friend select a four-digit number and enter it twice into a calculator. (For example: 12341234)
- Announce that the number is divisible by 137 and have him verify it on his calculator.
- Next, announce that he can now divide by his original four-digit number. After he has done so, dramatically command him to look at your prediction on the paper. It will match his calculator display: 73!
The 6174 loop
- Select a four-digit number. (Do not use 1111, 2222, etc.)
- Arrange the digits in increasing order.
- Arrange the digits in decreasing order.
- Subtract the smaller number from the larger number.
- Repeat steps 2, 3, and 4 with the result, and so on. What happens?
- Arrange the digits in increasing order. 1377
- Arrange the digits in decreasing order. 7731
- Subtract the smaller number from the larger number. 7731 - 1377 = 6354
- Repeat the process with 6354
- 6543 - 3456 = 3087
- 8730 - 0378 = 8352
- 8532 - 2358 = 6174
- 7641 - 1467 = 6174
- 7641 - 1467 = 6174
- 7641 - 1467 = 6174 (we're in a loop!)
The Golden Prediction
This trick takes considerable time, but the effect is spectacular.
Give someone a sheet of paper and a pencil and tell him to:
- Number the first 25 lines (1, 2, 3,...).
- Write any two whole numbers on the first two lines.
- Add the two numbers and write the sum on the third line.
- Add the last two numbers and write the sum on the next line.
- Continue this process (add the last two, write the sum) until he has 25 numbers on his list.
- Select any number among the last five on his list, and divide by the previous number (the number above it). Under the process there....
The Golden Prediction example
1. 10
2. 22 (22 + 10) = 32
3. 32 (32 + 22) = 54
4. 54 (32 + 54) = 86, etc.
5. 86
6. 140
7. 226
8. 366
9. 592
10. 958
11. 1550
12. 2508
13. 4058
14. 6566
15. 10624
16. 17190
17. 27814
18. 45004
19. 72818
20. 117822
21. 190640
22. 308462
23. 499102
24. 807564
25. 1306666
Select any number among the last five on the list,
and divide by the number above it.
For example, divide #24 by #23:
807564/499102 = 1.618033989....
Now for the trick!
Remind him that you do not know his original two numbers or any of the 25 numbers, that you do not know which of the 25 numbers he selected right now, and therefore you cannot possibly know the number on the display.
With great concentration and much difficulty, you divine the number presently on his alculator: "I'm getting a One... then something funny - oh! a decimal point! Then... a Six.. another One.. and an Eight, I think.. Now I'm getting a blank.. nothing... Oh! It's a Zero!.. then a Three... and... another Three?... then a Nine... had enough?"
That's right! If your subject selects any number between the last five (#21 through #25) and divides it by the number above it, he'll always get 1.618033989..., which just happens to be the! (provided, of course, he did all the addition correctly in steps 3-5 above)
Why does this work? It's an incredible bit of mathematical trivia. Begin with any two whole numbers, make a take the ratio of two consecutive entries, and the ratio approaches the Golden Mean! The further out we go, the more accurate it becomes. That's why we need 25 numbers: to obtain sufficient accuracy. The proof requires familiarity with the pages of algebra, and a knowledge of Limits, all of which go far beyond the scope of this site.
Interesting fact: if you divide one of your last 5 numbers by the next number (instead of the previous number), the result is the same decimal without the leading 1. (0.618033989)
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